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Dr. Shashank Sundriyal
Dr. Shashank Sundriyal
Marie-Curie Experienced Researcher at CATRIN-RCPTM, Palacky University, Czech Republic
Verified email at upol.cz - Homepage
Title
Cited by
Cited by
Year
Metal-organic frameworks and their composites as efficient electrodes for supercapacitor applications
S Sundriyal, H Kaur, SK Bhardwaj, S Mishra, KH Kim, A Deep
Coordination Chemistry Reviews 369, 15-38, 2018
3442018
Metal-organic frameworks (MOFs) and their composites as electrodes for lithium battery applications: Novel means for alternative energy storage
V Shrivastav, S Sundriyal, P Goel, H Kaur, SK Tuteja, K Vikrant, KH Kim, ...
Coordination Chemistry Reviews 393, 48-78, 2019
2552019
High-performance symmetrical supercapacitor with a combination of a ZIF-67/rGO composite electrode and a redox additive electrolyte
S Sundriyal, V Shrivastav, H Kaur, S Mishra, A Deep
ACS omega 3 (12), 17348-17358, 2018
2522018
Advances in bio-waste derived activated carbon for supercapacitors: Trends, challenges and prospective
S Sundriyal, V Shrivastav, HD Pham, S Mishra, A Deep, DP Dubal
Resources, Conservation and Recycling 169, 105548, 2021
1612021
Recent advances in biomass derived activated carbon electrodes for hybrid electrochemical capacitor applications: Challenges and opportunities
P Dubey, V Shrivastav, PH Maheshwari, S Sundriyal
Carbon 170, 1-29, 2020
1612020
Perovskite materials as superior and powerful platforms for energy conversion and storage applications
P Goel, S Sundriyal, V Shrivastav, S Mishra, DP Dubal, KH Kim, A Deep
Nano Energy 80, 105552, 2021
1492021
Luminescent metal-organic frameworks and their composites: Potential future materials for organic light emitting displays
H Kaur, S Sundriyal, V Pachauri, S Ingebrandt, KH Kim, AL Sharma, ...
Coordination Chemistry Reviews 401, 213077, 2019
1452019
Conductive and porous ZIF-67/PEDOT hybrid composite as superior electrode for all-solid-state symmetrical supercapacitors
V Shrivastav, S Sundriyal, A Kaur, UK Tiwari, S Mishra, A Deep
Journal of Alloys and Compounds 843, 155992, 2020
1122020
Metal-organic framework derived zirconium oxide/carbon composite as an improved supercapacitor electrode
V Shrivastav, S Sundriyal, UK Tiwari, KH Kim, A Deep
Energy 235, 121351, 2021
962021
Significantly enhanced performance of rGO/TiO2 nanosheet composite electrodes based 1.8 V symmetrical supercapacitor with use of redox additive electrolyte
S Sundriyal, V Shrivastav, M Sharma, S Mishra, A Deep
Journal of Alloys and Compounds 790, 377-387, 2019
842019
ZIF-67 derived Co3S4 hollow microspheres and WS2 nanorods as a hybrid electrode material for flexible 2V solid-state supercapacitor
V Shrivastav, S Sundriyal, P Goel, V Shrivastav, UK Tiwari, A Deep
Electrochimica Acta 345, 136194, 2020
812020
Enhanced electrochemical performance of nickel intercalated ZIF-67/rGO composite electrode for solid-state supercapacitors
S Sundriyal, V Shrivastav, S Mishra, A Deep
International Journal of Hydrogen Energy 45 (55), 30859-30869, 2020
732020
Redox additive electrolyte study of Mn–MOF electrode for supercapacitor applications
S Sundriyal, V Shrivastav, M Sharma, S Mishra, A Deep
ChemistrySelect 4 (9), 2585-2592, 2019
692019
Study of manganese-1, 4-benzenedicarboxylate metal organic framework electrodes based solid state symmetrical supercapacitor
S Sundriyal, S Mishra, A Deep
Energy Procedia 158, 5817-5824, 2019
672019
Metal‐organic frameworks‐derived titanium dioxide–carbon nanocomposite for supercapacitor applications
V Shrivastav, S Sundriyal, KH Kim, RK Sinha, UK Tiwari, A Deep
International Journal of Energy Research 44 (8), 6269-6284, 2020
612020
Improved electrochemical performance of rGO/TiO2 nanosheet composite based electrode for supercapacitor applications
S Sundriyal, M Sharma, A Kaur, S Mishra, A Deep
Journal of Materials Science: Materials in Electronics 29, 12754-12764, 2018
582018
Kraft lignin-derived free-standing carbon nanofibers mat for high-performance all-solid-state supercapacitor
M Singh, A Gupta, S Sundriyal, K Jain, SR Dhakate
Materials Chemistry and Physics 264, 124454, 2021
562021
Surface and diffusion charge contribution study of neem leaves derived porous carbon electrode for supercapacitor applications using acidic, basic, and neutral electrolytes
S Sundriyal, V Shrivastav, A Kaur, A Deep, SR Dhakate
Journal of Energy Storage 41, 103000, 2021
452021
Waste office papers as a cellulosic material reservoir to derive highly porous activated carbon for solid-state electrochemical capacitor
S Sundriyal, V Shrivastav, A Kaur, P Dubey, S Mishra, A Deep, ...
IEEE Transactions on Nanotechnology 20, 481-488, 2021
342021
Enhanced supercapacitive performance of Ni0. 5Mg0. 5Co2O4 flowers and rods as an electrode material for high energy density supercapacitors: rod morphology holds the key
M Sharma, S Sundriyal, A Panwar, A Gaur
Journal of Alloys and Compounds 766, 859-867, 2018
342018
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